DE362432C - Process for the manufacture of detonators for mining and military purposes - Google Patents

Description

Process for the manufacture of detonators for mining and military Purposes. It is already known to manufacture detonators, which with nitro bodies, an initial of lead azide and a charge of fiery mercury, fuming mercury chlorate mixtures, Picrates, gunpowder, mixtures of sparingly soluble heavy metal salts * of hydrofluoric acid loaded with potassium chlorate, etc. and other highly flammable substances. These Some of the charges are not sufficiently stable and mostly give Ignition delays.

Attempts have also been made to use lead azide with nitro bodies, etc. to mix, for the purpose of being able to load the lead azide without an inner cap and solid To obtain pressed body. However, these lead azide mixtures have the disadvantage that they are too small Sensitivity to ignition, which easily leads to failure when firing detonators can lead.

One has also: tried to use lead trinitroresorzinat in connection with the known primers for the representation of primers for primers, detonators and the like (see patent 2859o2).

In this patent it is stated that the Ileitrinitroresorzinat, which is formed by combining hot solutions of lead nitrate with a solution of an easily soluble trinitroresorzinsatzes, by charging a primer, such as mercury, or by adding this primer in small quantities to the primer itself. A trace amount of the known initial explosives, z. B. fumed mercury, should be enough to make the lead trinitroresorzinat a very powerful initial ignition agent. However, this does not apply to the admixture of lead azide with lead trinitroresorzinate. If you mix lead trinitroresorzinate with equal parts of lead azide, z. B. to initiate tetranitromethylaniline with this mixture 0.07 to 0.12 g is necessary, while for pure lead azide under the same circumstances, 0.07 to 0.03 g are sufficient. The information in patent specification 2859o2 does not apply to the addition of lead azide to lead trinitroresorzinate, because even a mixture in equal parts has a significantly lower initial ignition effect than pure lead azide. In fact, more lead azide is often necessary than without the addition of lead trinitroresorcinate.

It has also been suggested to use the lead trinitroresorcinate directly to be used as an initiator (see patent 30921o).

This invention is based on the fact that the lead trinitroresorzinat also for. alone, without the use of fumed mercury, is a fully effective initiator if it is used in sufficient quantities. In the amount of charge, as is customary for the conventional detonators, it still expresses: no effect on the nitro bodies currently in use. In order to make the lead trinitroresorcinate usable in this form as a primer, charges are necessary according to the cited patent specifications that exceed 2 g and for which the normally used sleeves up to number 8 are no longer sufficient. By increasing the length of the wall of the case and covering it with a strong inner cap, it should be possible to reduce the limit charge to 0.5 g, so that capsules charged in this way should be usable.

According to this invention, the dimensions of the detonators and also the charges are increased very significantly, thereby reducing manufacturing costs the detonators are increased so that a practical execution of the process can not be thought.

It has now been found that lead trinitroresorcinate is excellent suitable to be charged on lead azide. The said body has an excellent Ignition sensitivity. From fiery mercury and the other bodies mentioned above it has the advantage of long shelf life, especially on less precious metals, like iron, zinc, aluminum and its alloys. Before all charges except Mercury fulminating has the advantage of exploding directly without any additives and none To give ignition delay. The lead trinitroresorzinat comes in the amounts in which it is used as a charge (about 0.1, 0.3 g) not as an initiator in Consider neither as salt containing water of crystallization nor in dehydrated form. Loads one z. B. 2 g in a detonator case no. 8 and ignites this capsule on a Lead plate, so the plate is not knocked through, it only receives an impression and the metal shell is broken up into large splinters, which on the plate are very few cause coarse splashes. That is the mark that the detonation only an incomplete one and does not carry over to the usual explosives. The decisive factor for the use of lead trinitroresorcinate is its high sensitivity to ignition and its ability to form solid compacts that are not prone to crumbling. Instead of being charged, the lead trinitroresorzinät can also be mixed with the lead azide. As previously mentioned, the initiating ability of these blends is important lower than the pure lead azide, so that not the information for this mixture the patent 285902 apply, according to which even trace amounts of a The primer for lead trinitroresorcinate is enough to make it very powerful To make the spark. The addition of -Bleitrinitroresorzinat is so after Subject of that invention quite pointless. According to the present invention, the Addition to the ignition sensitivity of the due to its high deflagration point of .about 34o ° rather difficult to ignite lead acid and to increase the strength of the pressed set so that the friction and shock-sensitive components do not crumble Initial ignition mass can take place, whereby the handling safety of the detonators otherwise would suffer. The inner cap is .by increasing the strength of the Compressed sentence made dispensable, so that the ignitability is made even easier.

It is also very advantageous to mixtures of nitro bodies, such as Trinitrotoluene, tetranitromethylaniline, N, itropentaerythritol, etc., or indifferent Bodies with lead azide a certain percentage, e.g. B. 10 to 20 percent, lead trinitroresorzinat to be added in order to reduce the insufficient ignition sensitivity of these mixtures, which is largely caused by the binders, so far. to increase that even under unfavorable conditions no ignition failure with detonators an initial charge of the aforementioned mixtures occur.

The charges and initial charges can be with or without inner cones take place. The advantages of the listed uses of lead trinitroresorzinate make its use a great technical advance and reduce it Production costs of the detonators are considerable, since the inner cap is omitted -can be used and as sleeve material also less noble and consequently cheaper metals, such as iron, zinc and aluminum, can be taken.

The following are examples of explosive capsule charges: i. 0.9 g tetranitromethylaniline, 0.2 g lead azide, 0.2 g lead trinitroresorzinate. 2. 0.7 g of nitro pentaerythritol, 0.39 of a mixture of. Lead azide with lead trinitroresorzinate in the ratio i: i.

3. 0.7 g of tetranitromethylaniline, 0.5 g of a mixture consisting of 55 percent lead azide, 10 percent lead trinitroresorzinate and 3.5 percent tetrenitromethylaniline.

Claims (3)

PATENT CLAIMS: i. Process for the production of detonators for mining and military purposes, characterized in that one with a suitable nitro = body-charged detonators initially have an initial charge of Lead azide and. on this a charge of lead trinitroresorzinate is placed. 2. Procedure make claim i, characterized in that lead azide and Mixes lead trinitroresorzinat and this mixture attaches to the nitro body to obtain a solid and ignition-sensitive pressed body. 3. Method according to claim r, characterized in that lead trinitroresorzinate with lead azide, nitro bodies or indifferent bodies and the thus produced initial sentences on the charge the nitro body touches down.